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metaVaR: Introducing metavariant species models for reference-free metagenomic-based population genomics

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  • Romuald Laso-Jadart
  • Christophe Ambroise
  • Pierre Peterlongo
  • Mohammed-Amin Madoui

Abstract

The availability of large metagenomic data offers great opportunities for the population genomic analysis of uncultured organisms, which represent a large part of the unexplored biosphere and play a key ecological role. However, the majority of these organisms lack a reference genome or transcriptome, which constitutes a technical obstacle for classical population genomic analyses. We introduce the metavariant species (MVS) model, in which a species is represented only by intra-species nucleotide polymorphism. We designed a method combining reference-free variant calling, multiple density-based clustering and maximum-weighted independent set algorithms to cluster intra-species variants into MVSs directly from multisample metagenomic raw reads without a reference genome or read assembly. The frequencies of the MVS variants are then used to compute population genomic statistics such as FST, in order to estimate genomic differentiation between populations and to identify loci under natural selection. The MVS construction was tested on simulated and real metagenomic data. MVSs showed the required quality for robust population genomics and allowed an accurate estimation of genomic differentiation (ΔFST

Suggested Citation

  • Romuald Laso-Jadart & Christophe Ambroise & Pierre Peterlongo & Mohammed-Amin Madoui, 2020. "metaVaR: Introducing metavariant species models for reference-free metagenomic-based population genomics," PLOS ONE, Public Library of Science, vol. 15(12), pages 1-17, December.
    • Handle: RePEc:plo:pone00:0244637
    DOI: 10.1371/journal.pone.0244637
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    1. Kirsten M. Ellegaard & Philipp Engel, 2019. "Genomic diversity landscape of the honey bee gut microbiota," Nature Communications, Nature, vol. 10(1), pages 1-13, December.
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